System and method for minimizing holes on slab floor when forming tilt concrete walls

ABSTRACT

An apparatus and method for bracing a form laid out for the construction of a tilt-up wall includes a sleeve which is configured to allow the passing of a structural frame member through its interior. The sleeve has a tab depending from its bottom side, which is configured to be inserted within a control joint of a slab floor on which the tilt-up wall form is laid out. The top side of the sleeve is secured to the structural frame member and one end of the structural frame member is secured to a side of an outside perimeter of the form. For bracing common bulkheads, a plurality of flanged caps are used and secured to an inside surface of the common bulkhead forms. Re-bar members are inserted in the cap and extend outwardly for securement to the re-bat mat between the bulkhead forms.

FIELD OF THE INVENTION

The invention relates to tilt wall construction of concrete wall.

BACKGROUND OF THE INVENTION

The problem with the method of forming tilt walls that is presently being used is all the form work has to be drilled and nailed into the new slab floor. Many of the slabs do not get covered with any type of coverings. The concrete sub-contractor must go back and patch all of these holes. There can be several hundred holes that need to be patched. Even after these holes have been patched, they are very obvious and make a new slab look old and ugly. There are no known method has yet been found that works well to eliminate these drilled holes.

SUMMARY OF THE INVENTION

The present invention is designed to be used in forming tilt walls without having to drill holes in the slab to hold form work in place while concrete is being poured. The invention uses the saw-cut control joints in the slab which are required.

The present inventive system includes a hollow generally rectangular sleeve adapted to pass through its hollow interior a structural member, typically a 2×4 or 2×6 frame lumber. The sleeve has a tab or tail piece depending from its bottom side and is sized to be inserted in a saw-cut control joint required for slab floors typically associated with buildings being constructed with tilt-up wall construction methods. Preferably the tab can be adapted so that when it is inserted into the control joint, the bottom of the sleeve is relative flush with the slab floor. For example, a tab might be ⅛ inch thick, 2 inches wide and 1 inch long. Certainly, the width and length can be varied or the tab can be designed so that its depth (length) of the tab can be shortened in the field. The sleeve also has apertures or holes on its top side through which a nail can be temporarily nailed into the structural member.

When a form for a tilt-wall is configured, the sleeve and its tab can be placed at a suitable distance from the outside of the frame where the tab is inserted in the control joint for positioning. The frame member is slid in through the sleeve hollow interior and one end of the frame member is positioned against the form side. Nails are then hammered from inside the form through the end of the frame member and through the top side of the sleeve into the frame member, thereby providing a form brace to hold the form straight as the concrete is being poured. A desired number of these sleeve and frame members are located around the perimeter of the tilt-up wall form to maintain the overall form shape as the concrete is being poured.

The sleeve can be made from a variety of rigid materials, including metal, plastic based composite materials and other suitable materials. For example, it made from a metallic material, 7 gauge thickness material would be work quite well.

As an adjunct to the inventive system is a method of bracing common bulkheads in the forms of tilt-up walls. In addition to the above-described bracing around the outside perimeter of the forms, there is a need to brace between common bulkhead forms. Between the bulkhead forms, a re-bar mat is used to reinforce the tilt-up wall. The present invention includes the use of a flanged cap that receives a re-bar member, typically about 4 feet long. The flange has apertures in it which serve as means for nailing the cap to the inside surface of the bulkhead form. With an end of the re-bar member inserted inside the cap, the re-bar member is aligned to be tied to the re-bar mat. The cap and its inserted re-bar member is pushed tight against the form and nailed in place. Bulkhead forms may for example, be 20 feet apart so the 4 foot section of re-bar has a free end that extends into the form interior in the form lay out. It is preferred that these cap and re-bar members be aligned to be generally aligned with each outside brace provided by the above-described sleeve, tab and frame member combination.

The flange cap can be made from several materials known to be suitable; however, a plastic based composite material or an elastomeric rubberized material is preferred. The receiving part of the cap for the re-bar member end can be designed and sized to receive and hold with a snug fit typical size re-bar, such as ⅝ inch re-bar. Although various size caps can be made, it is known how to make universal caps where the receiving portion can be made to accommodate several sizes. For example, one known method is to provide an expandable opening so that a cap can receive multiple diameter re-bar members, such as a ½ inch re-bar or a ⅝ inch re-bar.

The invention includes an associated methodology for bracing such forms. The method comprises providing a plurality of sleeves, each sleeve having a hollow interior, the sleeve hollow interior being configured to allow the passing of a structural frame member through its interior, each sleeve having a tab depending from a bottom side of the sleeve, the tab being configured to be inserted within a control joint of a slab floor on which the tilt-up wall form is laid out, and a top side of the sleeve having means for securing the sleeve to the structural frame member; and locating control joints in the slab floor where bracing is desired and for each location, placing the tab into the control joint, securing one end of each structural frame member passing through the sleeve to a side of an outside perimeter of the form where desired and securing the structural frame member at an intermediate location to the sleeve.

The means for securing the sleeve to the structural member can be one or more apertures through which nails can be temporarily secured into the intermediate location of the structural frame member.

The method further comprises providing means for use in bracing common bulkhead forms, said means for use in bracing common bulkhead forms comprising a flanged cap, the flanged cap having means for securing the cap to an inside surface of one of the common bulkhead forms, and the flanged cap having means for receiving and securing an end of a re-bar member of a desired length. A desired number of caps are secured to the inside surface of the common bulkhead forms at each location that generally aligns with the outside perimeter tilt-up wall form bracing.

The means for securing the cap to the inside surface of one of the common bulkhead forms can be one or more apertures through which nails can be driven into the one of the common bulkhead forms.

For each secured cap, the re-bar member of desired length is inserted and secured to a re-bar mat between the common bulkhead forms.

BRIEF DESCRIPTION OF THE DRAWINGS

In the accompanying drawings:

FIG. 1 is a conceptual depiction of the invention applied to a form for a tilt-up wall;

FIG. 2A is a depiction of an example of a sleeve and its tab used for bracing the outside perimeter of a form;

FIG. 2B is a conceptual depiction of the sleeve and tab of FIG. 2A being used to brace a form;

FIG. 3A is a depiction of an example of a cap for use between bulkhead forms; and

FIG. 3B is a depiction of the cap of FIG. 3A with the re-bar member inserted on one side.

DETAILED DESCRIPTION OF THE INVENTION

Referring now to the drawings, FIGS. 1, 2A, 2B, 3A and 3B conceptually disclose the present invention, which is a system and method for bracing forms used in the tilt-up construction industry to eliminate the need for drilling holes in the concrete slab of buildings being constructed with tilt-up walls, and is depicted generally as 10.

The invention 10 is used for bracing a form 12 laid out for the construction of a tilt-up wall to be poured within such form 12.

It comprises a sleeve 14 a having a hollow interior 14 b, the sleeve hollow interior 14 b being configured to allow the passing of a structural frame member 14 e through its interior 14 b, a tab 14 c depending from a bottom side of the sleeve 14 a, the tab 14 c being configured to be inserted within a control joint 18 of a slab floor 20 on which the tilt-up wall form 12 is laid out; and a top side of the sleeve 14 a having means for securing the sleeve to the structural frame member 14 e, wherein one end of the structural frame member 14 e passing through the sleeve 14 a is secured to a side of an outside perimeter of the form 12 where desired and the structural frame member 14 e is secured at an intermediate location to the sleeve 14 a.

The means for securing the sleeve 14 a to the structural frame member 14 e is one or more apertures 14 d through which nails 16 can be temporarily secured into the intermediate location of the structural frame member 14 e.

The present invention 10 further comprises means for use in bracing common bulkhead forms 12 a. The means for use in bracing common bulkhead forms 12 a comprises a flanged cap 22. The flanged cap 22 includes means for securing the cap 22 to an inside surface of one of the common bulkhead forms 12 a and the flanged cap has means 22 b for receiving and securing an end of a re-bar member 22 d of a desired length. The means 22 b for receiving and securing an end of a re-bar member 22 d of a desired length is typically a hole configured to secure the end of the re-bar member 22 d.

The means for securing the cap 22 to the inside surface of one of the common bulkhead forms 12 a is one or more apertures 22 c through the flanged portion 22 a of the cap 22 through which nails can be driven into the one of the common bulkhead forms. The flanged cap 22 is secured to the inside surface of one of the common bulkhead forms where desired and the re-bar member 22 d extending away from said inside surface is tied to a re-bar mat 24 between the common bulkhead forms 12 a.

It should be understood that the preceding is merely a detailed description of one or more embodiments of this invention and that numerous changes to the disclosed embodiments can be made in accordance with the disclosure herein without departing from the spirit and scope of the invention. The preceding description, therefore, is not meant to limit the scope of the invention. Rather, the scope of the invention is to be determined only by the appended claims and their equivalents. 

1. Apparatus for use in bracing a form laid out for the construction of a tilt-up wall to be poured within such form, the apparatus comprising: a sleeve having a hollow interior, the sleeve hollow interior being configured to allow the passing of a structural frame member through its interior; a tab depending from a bottom side of the sleeve, the tab being configured to be inserted within a control joint of a slab floor on which the tilt-up wall form is laid out; and a top side of the sleeve having means for securing the sleeve to the structural frame member, wherein one end of the structural frame member passing through the sleeve is secured to a side of an outside perimeter of the form where desired and the structural frame member is secured at an intermediate location to the sleeve.
 2. The apparatus according to claim 1, wherein the means for securing the sleeve to the structural frame member is one or more apertures through which nails can be temporarily secured into the intermediate location of the structural frame member.
 3. The apparatus according to claim 1, further comprising: means for use in bracing common bulkhead forms; said means for use in bracing common bulkhead forms comprising: a flanged cap; the flanged cap having means for securing the cap to an inside surface of one of the common bulkhead forms; and the flanged cap having means for receiving and securing an end of a re-bar member of a desired length.
 4. The apparatus according to claim 3, wherein the means for securing the flanged cap to the inside surface of one of the common bulkhead forms is one or more apertures located in a flanged portion of the cap through which nails can be driven into the one of the common bulkhead forms.
 5. The apparatus according to claim 3, wherein the flanged cap is secured to the inside surface of one of the common bulkhead forms where desired and the re-bar member extending away from said inside surface is tied to a re-bar mat between the common bulkhead forms.
 6. A method of bracing a form laid out for the construction of a tilt-up wall to be poured within such form, the method comprising: providing a plurality of sleeves, each sleeve having a hollow interior, the sleeve hollow interior being configured to allow the passing of a structural frame member through its interior, each sleeve having a tab depending from a bottom side of the sleeve, the tab being configured to be inserted within a control joint of a slab floor on which the tilt-up wall form is laid out, and a top side of the sleeve having means for securing the sleeve to the structural frame member; and locating control joints in the slab floor where bracing is desired and for each location, placing the tab into the control joint, securing one end of each structural frame member passing through the sleeve to a side of an outside perimeter of the form where desired and securing the structural frame member at an intermediate location to the sleeve.
 7. The method according to claim 6, wherein the means for securing the sleeve to the structural frame member is one or more apertures through which nails can be temporarily secured into the intermediate location of the structural frame member.
 8. The method according to claim 6, further comprising: providing means for use in bracing common bulkhead forms, said means for use in bracing common bulkhead forms comprising a flanged cap, the flanged cap having means for securing the flanged cap to an inside surface of one of the common bulkhead forms, and the flanged cap having means for receiving and securing an end of a re-bar member of a desired length.
 9. The method according to claim 8, further comprising: securing a desired number of flanged caps to the inside surface of the common bulkhead forms at each location that generally aligns with the outside perimeter tilt-up wall form bracing.
 10. The method according to claim 8, wherein the means for securing the flanged cap to the inside surface of one of the common bulkhead forms is one or more apertures located in a flanged portion of the flanged cap through which nails can be driven into the one of the common bulkhead forms.
 11. The method according to claim 9, further comprising: for each secured cap, inserting in each cap the re-bar member of desired length and securing said re-bar member extending away from the cap to a re-bar mat between the common bulkhead forms. 